A switching function q(t) is applied a semiconductor switch (MOSFET) which is controlling the power to a pure inductive load of 0.005H from 24V DC source. There is no previously stored energy in the inductor at t=0. Assuming the ideal components: a. Explain the operation of the circuit b. Find the switching period and frequency c. Calculate the mean (average) and RMS values of load voltage (vo) d. Find the load current expression and sketch it for first two switching periods e. Calculate the energy stored in the load inductor at the end of the second period from starting. L=0.05H Vo: load voltage to: load current t (ms) 4 2 3
A switching function q(t) is applied a semiconductor switch (MOSFET) which is controlling the power to a pure inductive load of 0.005H from 24V DC source. There is no previously stored energy in the inductor at t=0. Assuming the ideal components: a. Explain the operation of the circuit b. Find the switching period and frequency c. Calculate the mean (average) and RMS values of load voltage (vo) d. Find the load current expression and sketch it for first two switching periods e. Calculate the energy stored in the load inductor at the end of the second period from starting. L=0.05H Vo: load voltage to: load current t (ms) 4 2 3
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Transcribed Image Text:A switching function q(t) is applied a semiconductor switch (MOSFET) which is
controlling the power to a pure inductive load of 0.005H from 24V DC source. There
is no previously stored energy in the inductor at t=0. Assuming the ideal
components:
a. Explain the operation of the circuit
b. Find the switching period and frequency
c. Calculate the mean (average) and RMS values of load voltage (vo)
d. Find the load current expression and sketch it for first two switching periods
e. Calculate the energy stored in the load inductor at the end of the second period
from starting.
L=0.05H
24v
Vo: load voltage
1o: load current
→t(ms)
4
2
3
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